By using Fourier series,the relation between the value and harmonic of cogging force and the number of slot and pole was acquired.

Use the finite element analysis method to analyze the flux density,cogging force and the force density.

To reduce the fluctuation of cogging force in permanent magnet linear synchronous motors(PMLSM),a 2D-field finite element model of PMLSM was used to describe the relative movements between primary and secondary,combined with automatic meshing.

In order to satisfy the smoothness of thrust of flat three-phase permanent magnet linear synchronous motor(PMLSM),factors and regularity of its end force and slot force are analyzed through finite element method.

In this paper,the cogging torque of a 4-pole 6-slot permanent magnet motor was analyzed quantificationally using finite element method.

Reduction of cogging torque in brushless DC motor is analyzed by Fourier analysis.

Approach to calibrating and compensating cogging force ripple in linear motors

The cogging torque of permanent magnet synchronous motor is harmful to driving systems.

The magnet torque and cogging torque equations are also developed for threephase permanent magnet inductor synchronous motor(PMISM).

The finite element method and indirect method were used to analyze the slot-teeth component of detent force in PMLSM at the outlet end.